private void PerformEmote(AgentProperty property, uint value)
{
if (Game.State == GameState.Playing)
{
SendAgentPropertyInt(property, value);
PerformAnimation(CreatureAnimation.None);
}
}
protected override void CreateProperties()
{
if (!_properties.ContainsKey("points"))
{
AgentProperty points = new AgentProperty("points", 0.0f);
properties.Add(points);
_properties["points"] = points;
}
}
public void Save(AgentProperty entity)
{
if (entity.AgentPropertyId > 0)
{
_context.AgentProperties.Attach(entity);
_context.Entry <AgentProperty>(entity).State = System.Data.EntityState.Modified;
}
else
{
_context.AgentProperties.Add(entity);
}
_context.SaveChanges();
}
private void PerformEmote(AgentProperty property, uint value)
{
if (Game.State == GameState.Playing)
{
SendAgentPropertyInt(property, value);
PerformAnimation(CreatureAnimation.None);
}
}
/// <summary>
/// This is implemented to handle properties as they are parsed from the data stream
/// </summary>
/// <param name="propertyName">The name of the property.</param>
/// <param name="parameters">A string collection containing the parameters and their values. If empty,
/// there are no parameters.</param>
/// <param name="propertyValue">The value of the property.</param>
/// <remarks><para>There may be a mixture of name/value pairs or values alone in the parameters string
/// collection. It is up to the derived class to process the parameter list based on the specification
/// to which it conforms. For entries that are parameter names, the entry immediately following it in
/// the collection is its associated parameter value. The property name, parameter names, and their
/// values may be in upper, lower, or mixed case.</para>
///
/// <para>The value may be an encoded string. The properties are responsible for any decoding that may
/// need to occur (i.e. base 64 encoded image data).</para></remarks>
/// <exception cref="PDIParserException">This is thrown if an error is encountered while parsing the data
/// stream. Refer to the and inner exceptions for information on the cause of the problem.</exception>
protected override void PropertyParser(string propertyName, StringCollection parameters, string propertyValue)
{
SpecificationVersions version = SpecificationVersions.None;
string temp, group = null;
int idx;
// Parse out the group name if there is one
idx = propertyName.IndexOf('.');
if (idx != -1)
{
group = propertyName.Substring(0, idx).Trim();
propertyName = propertyName.Substring(idx + 1).Trim();
}
// The last entry is always CustomProperty so scan for length minus one
for (idx = 0; idx < ntv.Length - 1; idx++)
{
if (ntv[idx].IsMatch(propertyName))
{
break;
}
}
// An opening BEGIN:VCARD property must have been seen
if (currentCard == null && ntv[idx].EnumValue != PropertyType.Begin)
{
throw new PDIParserException(this.LineNumber, LR.GetString("ExParseNoBeginProp", "BEGIN:VCARD",
propertyName));
}
// Handle or create the property
switch (ntv[idx].EnumValue)
{
case PropertyType.Begin:
// The value must be VCARD
if (String.Compare(propertyValue.Trim(), "VCARD", StringComparison.OrdinalIgnoreCase) != 0)
{
throw new PDIParserException(this.LineNumber, LR.GetString("ExParseUnrecognizedTagValue",
ntv[idx].Name, propertyValue));
}
// NOTE: If serializing into an existing instance, this may not be null. If so, it is
// ignored.
if (currentCard == null)
{
currentCard = new VCard();
vCards.Add(currentCard);
}
currentCard.Group = group;
break;
case PropertyType.End:
// The value must be VCARD
if (String.Compare(propertyValue.Trim(), "VCARD", StringComparison.OrdinalIgnoreCase) != 0)
{
throw new PDIParserException(this.LineNumber, LR.GetString("ExParseUnrecognizedTagValue",
ntv[idx].Name, propertyValue));
}
// The group must match too
if (currentCard.Group != group)
{
throw new PDIParserException(this.LineNumber, LR.GetString("ExParseUnexpectedGroupTag",
currentCard.Group, group));
}
// When done, we'll propagate the version number to all objects to make it consistent
currentCard.PropagateVersion();
// The vCard is added to the collection when created so we don't have to rely on an END:VCARD
// to add it.
currentCard = null;
break;
case PropertyType.Profile:
// The value must be VCARD
if (String.Compare(propertyValue.Trim(), "VCARD", StringComparison.OrdinalIgnoreCase) != 0)
{
throw new PDIParserException(this.LineNumber, LR.GetString("ExParseUnrecognizedTagValue",
ntv[idx].Name, propertyValue));
}
currentCard.AddProfile = true;
break;
case PropertyType.Version:
// Version must be 2.1 or 3.0
temp = propertyValue.Trim();
if (temp == "2.1")
{
version = SpecificationVersions.vCard21;
}
else
if (temp == "3.0")
{
version = SpecificationVersions.vCard30;
}
else
{
throw new PDIParserException(this.LineNumber, LR.GetString("ExParseUnrecognizedVersion",
"vCard", temp));
}
currentCard.Version = version;
break;
case PropertyType.MimeName:
currentCard.MimeName.EncodedValue = propertyValue;
break;
case PropertyType.MimeSource:
currentCard.MimeSource.DeserializeParameters(parameters);
currentCard.MimeSource.EncodedValue = propertyValue;
break;
case PropertyType.ProductId:
currentCard.ProductId.EncodedValue = propertyValue;
break;
case PropertyType.Nickname:
currentCard.Nickname.DeserializeParameters(parameters);
currentCard.Nickname.EncodedValue = propertyValue;
currentCard.Nickname.Group = group;
break;
case PropertyType.SortString:
currentCard.SortString.DeserializeParameters(parameters);
currentCard.SortString.EncodedValue = propertyValue;
currentCard.SortString.Group = group;
break;
case PropertyType.Class:
currentCard.Classification.EncodedValue = propertyValue;
currentCard.Classification.Group = group;
break;
case PropertyType.Categories:
currentCard.Categories.DeserializeParameters(parameters);
currentCard.Categories.EncodedValue = propertyValue;
currentCard.Categories.Group = group;
break;
case PropertyType.FormattedName:
currentCard.FormattedName.DeserializeParameters(parameters);
currentCard.FormattedName.EncodedValue = propertyValue;
currentCard.FormattedName.Group = group;
break;
case PropertyType.Name:
currentCard.Name.DeserializeParameters(parameters);
currentCard.Name.EncodedValue = propertyValue;
currentCard.Name.Group = group;
break;
case PropertyType.Title:
currentCard.Title.DeserializeParameters(parameters);
currentCard.Title.EncodedValue = propertyValue;
currentCard.Title.Group = group;
break;
case PropertyType.Role:
currentCard.Role.DeserializeParameters(parameters);
currentCard.Role.EncodedValue = propertyValue;
currentCard.Role.Group = group;
break;
case PropertyType.Mailer:
currentCard.Mailer.DeserializeParameters(parameters);
currentCard.Mailer.EncodedValue = propertyValue;
currentCard.Mailer.Group = group;
break;
case PropertyType.Url:
currentCard.Url.DeserializeParameters(parameters);
currentCard.Url.EncodedValue = propertyValue;
currentCard.Url.Group = group;
break;
case PropertyType.Organization:
currentCard.Organization.DeserializeParameters(parameters);
currentCard.Organization.EncodedValue = propertyValue;
currentCard.Organization.Group = group;
break;
case PropertyType.UniqueId:
currentCard.UniqueId.EncodedValue = propertyValue;
currentCard.UniqueId.Group = group;
break;
case PropertyType.BirthDate:
currentCard.BirthDate.DeserializeParameters(parameters);
currentCard.BirthDate.EncodedValue = propertyValue;
currentCard.BirthDate.Group = group;
break;
case PropertyType.Revision:
currentCard.LastRevision.DeserializeParameters(parameters);
currentCard.LastRevision.EncodedValue = propertyValue;
currentCard.LastRevision.Group = group;
break;
case PropertyType.TimeZone:
currentCard.TimeZone.DeserializeParameters(parameters);
currentCard.TimeZone.EncodedValue = propertyValue;
currentCard.TimeZone.Group = group;
break;
case PropertyType.GeographicPosition:
currentCard.GeographicPosition.EncodedValue = propertyValue;
currentCard.GeographicPosition.Group = group;
break;
case PropertyType.PublicKey:
currentCard.PublicKey.DeserializeParameters(parameters);
currentCard.PublicKey.EncodedValue = propertyValue;
currentCard.PublicKey.Group = group;
break;
case PropertyType.Photo:
currentCard.Photo.DeserializeParameters(parameters);
currentCard.Photo.EncodedValue = propertyValue;
currentCard.Photo.Group = group;
break;
case PropertyType.Logo:
currentCard.Logo.DeserializeParameters(parameters);
currentCard.Logo.EncodedValue = propertyValue;
currentCard.Logo.Group = group;
break;
case PropertyType.Sound:
currentCard.Sound.DeserializeParameters(parameters);
currentCard.Sound.EncodedValue = propertyValue;
currentCard.Sound.Group = group;
break;
case PropertyType.Note:
NoteProperty n = new NoteProperty();
n.DeserializeParameters(parameters);
n.EncodedValue = propertyValue;
n.Group = group;
currentCard.Notes.Add(n);
break;
case PropertyType.Address:
AddressProperty a = new AddressProperty();
a.DeserializeParameters(parameters);
a.EncodedValue = propertyValue;
a.Group = group;
currentCard.Addresses.Add(a);
break;
case PropertyType.Label:
LabelProperty l = new LabelProperty();
l.DeserializeParameters(parameters);
l.EncodedValue = propertyValue;
l.Group = group;
currentCard.Labels.Add(l);
break;
case PropertyType.Telephone:
TelephoneProperty t = new TelephoneProperty();
t.DeserializeParameters(parameters);
t.EncodedValue = propertyValue;
t.Group = group;
currentCard.Telephones.Add(t);
break;
case PropertyType.EMail:
EMailProperty e = new EMailProperty();
e.DeserializeParameters(parameters);
e.EncodedValue = propertyValue;
e.Group = group;
currentCard.EMailAddresses.Add(e);
break;
case PropertyType.Agent:
AgentProperty ag = new AgentProperty();
ag.DeserializeParameters(parameters);
ag.EncodedValue = propertyValue;
ag.Group = group;
currentCard.Agents.Add(ag);
break;
default: // Anything else is a custom property
CustomProperty c = new CustomProperty(propertyName);
c.DeserializeParameters(parameters);
c.EncodedValue = propertyValue;
c.Group = group;
currentCard.CustomProperties.Add(c);
break;
}
}
internal void SendAgentTargetPropertyFloat(AgentProperty identifier, Agent target, float value)
{
Network.GameServer.Send(GameServerMessage.AgentTargetPropertyFloat, (uint)identifier, IdManager.GetId(target), IdManager.GetId(this), value);
}
internal void SendAgentPropertyInt(AgentProperty identifier, uint value)
{
Network.GameServer.Send(GameServerMessage.AgentPropertyInt, (uint)identifier, IdManager.GetId(this), value);
}
public void Delete(AgentProperty entity)
{
_context.AgentProperties.Attach(entity);
_context.Entry <AgentProperty>(entity).State = System.Data.EntityState.Deleted;
_context.SaveChanges();
}
internal void SendAgentTargetPropertyInt(AgentProperty identifier, Agent target, uint value)
{
Network.GameServer.Send(GameServerMessage.AgentTargetPropertyInt, (uint) identifier, IdManager.GetId(target), IdManager.GetId(this), value);
}
internal void SendAgentPropertyFloat(AgentProperty identifier, float value)
{
Network.GameServer.Send(GameServerMessage.AgentPropertyFloat, (uint) identifier, IdManager.GetId(this), value);
}
static void setupScenario(SFSimulator sim)
{
/* Specify the global time step of the simulation. */
sim.setTimeStep(0.25f);
/* Specify the default parameters for agents that are subsequently added. */
AgentProperty ap = new AgentProperty(15.0f, 10, 5.0f, 1.2f, 2.0f, 2.0f, 0.5f, 8, 0.6f, 100, 13.3f, 10, 0.000005f, 0.25f, 1.0f, new Vector2());
sim.setAgentDefaults(ap);
/*
* Add agents, specifying their start position, and store their goals on the
* opposite side of the environment.
*/
for (int i = 0; i < 5; ++i) {
for (int j = 0; j < 5; ++j) {
sim.addAgent(new Vector2(55.0f + i * 10.0f, 55.0f + j * 10.0f));
goals.Add(new Vector2(-75.0f, -75.0f));
sim.addAgent(new Vector2(-55.0f - i * 10.0f, 55.0f + j * 10.0f));
goals.Add(new Vector2(75.0f, -75.0f));
sim.addAgent(new Vector2(55.0f + i * 10.0f, -55.0f - j * 10.0f));
goals.Add(new Vector2(-75.0f, 75.0f));
sim.addAgent(new Vector2(-55.0f - i * 10.0f, -55.0f - j * 10.0f));
goals.Add(new Vector2(75.0f, 75.0f));
}
}
/*
* Add (polygonal) obstacles, specifying their vertices in counterclockwise
* order.
*/
List<Vector2> obstacle1 = new List<Vector2>();
List<Vector2> obstacle2= new List<Vector2>();
List<Vector2> obstacle3= new List<Vector2>();
List<Vector2> obstacle4= new List<Vector2>();
obstacle1.Add(new Vector2(-10.0f, 40.0f));
obstacle1.Add(new Vector2(-40.0f, 40.0f));
obstacle1.Add(new Vector2(-40.0f, 10.0f));
obstacle1.Add(new Vector2(-10.0f, 10.0f));
obstacle2.Add(new Vector2(10.0f, 40.0f));
obstacle2.Add(new Vector2(10.0f, 10.0f));
obstacle2.Add(new Vector2(40.0f, 10.0f));
obstacle2.Add(new Vector2(40.0f, 40.0f));
obstacle3.Add(new Vector2(10.0f, -40.0f));
obstacle3.Add(new Vector2(40.0f, -40.0f));
obstacle3.Add(new Vector2(40.0f, -10.0f));
obstacle3.Add(new Vector2(10.0f, -10.0f));
obstacle4.Add(new Vector2(-10.0f, -40.0f));
obstacle4.Add(new Vector2(-10.0f, -10.0f));
obstacle4.Add(new Vector2(-40.0f, -10.0f));
obstacle4.Add(new Vector2(-40.0f, -40.0f));
sim.addObstacle(obstacle1);
sim.addObstacle(obstacle2);
sim.addObstacle(obstacle3);
sim.addObstacle(obstacle4);
/* Process the obstacles so that they are accounted for in the simulation. */
sim.processObstacles();
}
static void setupScenario(SFSimulator sim)
{
// Specify the global time step of the simulation
sim.setTimeStep(0.25f);
// Specify the default parameters for agents that are subsequently added
AgentProperty ap = new AgentProperty(15.0f, 10, 5.0f, 1.2f, 2.0f, 2.0f, 0.5f, 8, 0.6f, 100, 13.3f, 10, 0.000005f, 0.25f, 1.0f, new SFVector2());
sim.setAgentDefaults(ap);
// Add agents, specifying their start position, and store their goals on the opposite side of the environment
for (int i = 0; i < 5; ++i)
{
for (int j = 0; j < 5; ++j)
{
sim.addAgent(new SFVector2(55.0f + i * 10.0f, 55.0f + j * 10.0f));
goals.Add(new SFVector2(-75.0f, -75.0f));
sim.addAgent(new SFVector2(-55.0f - i * 10.0f, 55.0f + j * 10.0f));
goals.Add(new SFVector2(75.0f, -75.0f));
sim.addAgent(new SFVector2(55.0f + i * 10.0f, -55.0f - j * 10.0f));
goals.Add(new SFVector2(-75.0f, 75.0f));
sim.addAgent(new SFVector2(-55.0f - i * 10.0f, -55.0f - j * 10.0f));
goals.Add(new SFVector2(75.0f, 75.0f));
}
}
// Add (polygonal) obstacles, specifying their vertices in counterclockwise order
List <SFVector2> obstacle1 = new List <SFVector2>();
List <SFVector2> obstacle2 = new List <SFVector2>();
List <SFVector2> obstacle3 = new List <SFVector2>();
List <SFVector2> obstacle4 = new List <SFVector2>();
obstacle1.Add(new SFVector2(-10.0f, 40.0f));
obstacle1.Add(new SFVector2(-40.0f, 40.0f));
obstacle1.Add(new SFVector2(-40.0f, 10.0f));
obstacle1.Add(new SFVector2(-10.0f, 10.0f));
obstacle2.Add(new SFVector2(10.0f, 40.0f));
obstacle2.Add(new SFVector2(10.0f, 10.0f));
obstacle2.Add(new SFVector2(40.0f, 10.0f));
obstacle2.Add(new SFVector2(40.0f, 40.0f));
obstacle3.Add(new SFVector2(10.0f, -40.0f));
obstacle3.Add(new SFVector2(40.0f, -40.0f));
obstacle3.Add(new SFVector2(40.0f, -10.0f));
obstacle3.Add(new SFVector2(10.0f, -10.0f));
obstacle4.Add(new SFVector2(-10.0f, -40.0f));
obstacle4.Add(new SFVector2(-10.0f, -10.0f));
obstacle4.Add(new SFVector2(-40.0f, -10.0f));
obstacle4.Add(new SFVector2(-40.0f, -40.0f));
sim.addObstacle(obstacle1);
sim.addObstacle(obstacle2);
sim.addObstacle(obstacle3);
sim.addObstacle(obstacle4);
// Process the obstacles so that they are accounted for in the simulation
sim.processObstacles();
}
